--- a/rust/integral-geometry/src/lib.rs Sun Nov 04 07:19:58 2018 +0300
+++ b/rust/integral-geometry/src/lib.rs Mon Nov 05 19:53:26 2018 +0300
@@ -2,7 +2,7 @@
use fpnum::distance;
use std::cmp::max;
-use std::ops::{Add, AddAssign, Div, DivAssign, Mul, MulAssign, RangeInclusive, Sub, SubAssign};
+use std::ops::{Add, AddAssign, Div, DivAssign, Mul, MulAssign, Range, RangeInclusive, Sub, SubAssign};
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub struct Point {
@@ -17,6 +17,11 @@
}
#[inline]
+ pub fn diag(v: i32) -> Self {
+ Self::new(v, v)
+ }
+
+ #[inline]
pub fn zero() -> Self {
Self::new(0, 0)
}
@@ -65,23 +70,31 @@
}
#[inline]
- pub fn fit(self, rect: &Rect) -> Point {
- let x = if self.x > rect.right() {
- rect.right()
- } else if self.x < rect.left() {
- rect.left()
- } else {
- self.x
- };
- let y = if self.y > rect.bottom() {
- rect.bottom()
- } else if self.y < rect.top() {
- rect.top()
- } else {
- self.y
- };
+ pub fn clamp(self, rect: &Rect) -> Point {
+ Point::new(
+ rect.x_range().clamp(self.x),
+ rect.y_range().clamp(self.y)
+ )
+ }
+
+ #[inline]
+ pub fn line_to(self, end: Point) -> Line {
+ Line::new(self, end)
+ }
- Point::new(x, y)
+ #[inline]
+ pub fn ray_to(self, end: Point) -> Ray {
+ self.line_to(end).to_ray()
+ }
+
+ #[inline]
+ pub fn tangent(self) -> i32 {
+ self.y / self.x
+ }
+
+ #[inline]
+ pub fn cotangent(self) -> i32 {
+ self.x / self.y
}
}
@@ -346,11 +359,10 @@
self.y..=self.y + self.height as i32
}
- /* requires #[feature(range_contains)]
#[inline]
pub fn contains(&self, point: Point) -> bool {
- x_range().contains(point.x) && y_range.contains(point.y)
- }*/
+ self.x_range().contains(point.x) && self.y_range().contains(point.y)
+ }
#[inline]
pub fn contains_inside(&self, point: Point) -> bool {
@@ -378,6 +390,47 @@
Rect::from_box(self.left(), point.x, point.y, self.bottom()),
]
}
+
+ #[inline]
+ pub fn quotient(self, x: u32, y: u32) -> Point {
+ self.top_left() +
+ Point::new(
+ (x % self.width) as i32,
+ (y % self.height) as i32
+ )
+ }
+}
+
+trait RangeContains<T> {
+ fn contains(&self, value: T) -> bool;
+}
+
+impl <T: Ord> RangeContains<T> for Range<T> {
+ fn contains(&self, value: T) -> bool {
+ value >= self.start && value < self.end
+ }
+}
+
+impl <T: Ord> RangeContains<T> for RangeInclusive<T> {
+ fn contains(&self, value: T) -> bool {
+ value >= *self.start() && value <= *self.end()
+ }
+}
+
+trait RangeClamp<T> {
+ fn clamp(&self, value: T) -> T;
+}
+
+impl <T: Ord + Copy> RangeClamp<T> for RangeInclusive<T> {
+ fn clamp(&self, value: T) -> T {
+ if value < *self.start() {
+ *self.start()
+ } else if value > *self.end() {
+ *self.end()
+ } else {
+ value
+ }
+ }
}
pub struct Polygon {
@@ -435,6 +488,34 @@
}
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
+pub struct Ray {
+ pub start: Point,
+ pub direction: Point
+}
+
+impl Ray {
+ #[inline]
+ pub fn new(start: Point, direction: Point) -> Ray {
+ Self { start, direction }
+ }
+
+ #[inline]
+ pub fn tangent(&self) -> i32 {
+ self.direction.tangent()
+ }
+
+ #[inline]
+ pub fn cotangent(&self) -> i32 {
+ self.direction.cotangent()
+ }
+
+ #[inline]
+ pub fn orientation(&self, point: Point) -> i32 {
+ (point - self.start).cross(self.direction).signum()
+ }
+}
+
+#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub struct Line {
pub start: Point,
pub end: Point,
@@ -457,8 +538,18 @@
}
#[inline]
+ pub fn scaled_direction(&self) -> Point {
+ self.end - self.start
+ }
+
+ #[inline]
pub fn scaled_normal(&self) -> Point {
- (self.end - self.start).rotate90()
+ self.scaled_direction().rotate90()
+ }
+
+ #[inline]
+ pub fn to_ray(&self) -> Ray {
+ Ray::new(self.start, self.scaled_direction())
}
}
--- a/rust/landgen/src/outline.rs Sun Nov 04 07:19:58 2018 +0300
+++ b/rust/landgen/src/outline.rs Mon Nov 05 19:53:26 2018 +0300
@@ -1,7 +1,7 @@
use itertools::Itertools;
use std::cmp::min;
-use integral_geometry::{Line, Point, Polygon, Rect, Size};
+use integral_geometry::{Line, Ray, Point, Polygon, Rect, Size};
use land2d::Land2D;
use outline_template::OutlineTemplate;
@@ -31,12 +31,7 @@
i.iter()
.zip(random_numbers.tuples())
.map(|(rect, (rnd_a, rnd_b))| {
- rect.top_left()
- + Point::new(
- (rnd_a % rect.width) as i32,
- (rnd_b % rect.height) as i32,
- )
- + play_box.top_left()
+ play_box.top_left() + rect.quotient(rnd_a, rnd_b)
})
.collect::<Vec<_>>()
.into()
@@ -73,28 +68,22 @@
random_numbers: &mut I,
) -> Option<Point> {
#[inline]
- fn intersect(p: Point, m: Point, p1: Point, p2: Point) -> bool {
- let t1 = (m - p1).cross(p);
- let t2 = (m - p2).cross(p);
-
- (t1 > 0) != (t2 > 0)
+ fn intersects(ray: &Ray, edge: &Line) -> bool {
+ ray.orientation(edge.start) != ray.orientation(edge.end)
}
#[inline]
- fn solve_intersection(
- intersections_box: &Rect,
- p: Point,
- m: Point,
- s: Point,
- e: Point,
- ) -> Option<(i32, u32)> {
- let f = e - s;
- let aqpb = p.cross(f) as i64;
+ fn solve_intersection(intersections_box: &Rect, ray: &Ray, edge: &Line) -> Option<(i32, u32)>
+ {
+ let edge_dir = edge.scaled_direction();
+ let aqpb = ray.direction.cross(edge_dir) as i64;
if aqpb != 0 {
- let mut iy = ((((s.x - m.x) as i64 * p.y as i64 + m.y as i64 * p.x as i64)
- * f.y as i64
- - s.y as i64 * f.x as i64 * p.y as i64)
+ let mut iy =
+ ((((edge.start.x - ray.start.x) as i64 * ray.direction.y as i64
+ + ray.start.y as i64 * ray.direction.x as i64)
+ * edge_dir.y as i64
+ - edge.start.y as i64 * edge_dir.x as i64 * ray.direction.y as i64)
/ aqpb) as i32;
// is there better way to do it?
@@ -104,15 +93,15 @@
iy = intersections_box.bottom();
}
- let ix = if p.y.abs() > f.y.abs() {
- (iy - m.y) * p.x / p.y + m.x
+ let ix = if ray.direction.y.abs() > edge_dir.y.abs() {
+ (iy - ray.start.y) * ray.direction.cotangent() + ray.start.x
} else {
- (iy - s.y) * f.x / f.y + s.x
+ (iy - edge.start.y) * edge_dir.cotangent() + edge.start.x
};
let intersection_point = Point::new(ix, iy);
- let diff_point = m - intersection_point;
- let t = p.dot(diff_point);
+ let diff_point = ray.start - intersection_point;
+ let t = ray.direction.dot(diff_point);
if diff_point.max_norm() >= std::i16::MAX as i32 {
Some((t, std::i32::MAX as u32))
} else {
@@ -129,54 +118,55 @@
// new point should fall inside this box
let map_box = self.play_box.with_margin(min_distance);
- let p = segment.scaled_normal();
- let p_norm = p.integral_norm();
+ let normal = segment.scaled_normal();
+ let normal_len = normal.integral_norm();
let mid_point = segment.center();
- if (p_norm < min_distance as u32 * 3) || !map_box.contains_inside(mid_point) {
+ if (normal_len < min_distance as u32 * 3) || !map_box.contains_inside(mid_point) {
return None;
}
+ let normal_ray = Ray::new(mid_point, normal);
let mut dist_left = (self.size.width + self.size.height) as u32;
let mut dist_right = dist_left;
// find distances to map borders
- if p.x != 0 {
+ if normal.x != 0 {
// where the normal line intersects the left map border
let left_intersection = Point::new(
map_box.left(),
- (map_box.left() - mid_point.x) * p.y / p.x + mid_point.y,
+ (map_box.left() - mid_point.x) * normal.tangent() + mid_point.y,
);
dist_left = (mid_point - left_intersection).integral_norm();
// same for the right border
let right_intersection = Point::new(
map_box.right(),
- (map_box.right() - mid_point.x) * p.y / p.x + mid_point.y,
+ (map_box.right() - mid_point.x) * normal.tangent() + mid_point.y,
);
dist_right = (mid_point - right_intersection).integral_norm();
- if p.x > 0 {
+ if normal.x > 0 {
std::mem::swap(&mut dist_left, &mut dist_right);
}
}
- if p.y != 0 {
+ if normal.y != 0 {
// where the normal line intersects the top map border
let top_intersection = Point::new(
- (map_box.top() - mid_point.y) * p.x / p.y + mid_point.x,
+ (map_box.top() - mid_point.y) * normal.cotangent() + mid_point.x,
map_box.top(),
);
let dl = (mid_point - top_intersection).integral_norm();
// same for the bottom border
let bottom_intersection = Point::new(
- (map_box.bottom() - mid_point.y) * p.x / p.y + mid_point.x,
+ (map_box.bottom() - mid_point.y) * normal.cotangent() + mid_point.x,
map_box.bottom(),
);
let dr = (mid_point - bottom_intersection).integral_norm();
- if p.y < 0 {
+ if normal.y < 0 {
dist_left = min(dist_left, dl);
dist_right = min(dist_right, dr);
} else {
@@ -188,14 +178,10 @@
// now go through all other segments
for s in self.segments_iter() {
if s != segment {
- if intersect(p, mid_point, s.start, s.end) {
- if let Some((t, d)) = solve_intersection(
- &self.intersections_box,
- p,
- mid_point,
- s.start,
- s.end,
- ) {
+ if intersects(&normal_ray, &s) {
+ if let Some((t, d)) =
+ solve_intersection(&self.intersections_box, &normal_ray, &s)
+ {
if t > 0 {
dist_right = min(dist_right, d);
} else {
@@ -209,14 +195,10 @@
// go through all points, including fill points
for pi in self.iter().cloned() {
if pi != segment.start && pi != segment.end {
- if intersect(p, pi, segment.start, segment.end) {
+ if intersects(&pi.ray_to(normal), &segment) {
// ray from segment.start
if let Some((t, d)) = solve_intersection(
- &self.intersections_box,
- p,
- mid_point,
- segment.start,
- pi,
+ &self.intersections_box, &normal_ray, &segment.start.line_to(pi),
) {
if t > 0 {
dist_right = min(dist_right, d);
@@ -227,11 +209,7 @@
// ray from segment.end
if let Some((t, d)) = solve_intersection(
- &self.intersections_box,
- p,
- mid_point,
- segment.end,
- pi,
+ &self.intersections_box, &normal_ray, &segment.end.line_to(pi)
) {
if t > 0 {
dist_right = min(dist_right, d);
@@ -243,7 +221,7 @@
}
}
- let max_dist = p_norm * 100 / distance_divisor;
+ let max_dist = normal_len * 100 / distance_divisor;
dist_left = min(dist_left, max_dist);
dist_right = min(dist_right, max_dist);
@@ -257,10 +235,7 @@
+ random_numbers.next().unwrap() as i32
% (dist_right as i32 + dist_left as i32 - min_distance * 2);
- Some(Point::new(
- mid_point.x + p.x * d / p_norm as i32,
- mid_point.y + p.y * d / p_norm as i32,
- ))
+ Some(mid_point + normal * d / normal_len as i32)
}
}